increasing bandwidth

Data is the lifeblood of your business. To compete in today’s global information economy, you need to keep your IT systems up and running and provide consistent and reliable access to
business-critical applications at all times. Application downtime or slow performance can mean diminished employee productivity, dissatisfied customers, and lost revenue.
But keeping pace with change and managing growth can be a real challenge. Increasing numbers of applications, evolving technology, and rapid data growth are pushing older IT
infrastructure to the limit—demanding more storage and bandwidth, greater security and agility, and higher availability than ever before.

Data is the lifeblood of your business. To compete in today’s global information economy, you need to keep your IT systems up and running and provide consistent and reliable access to
business-critical applications at all times. Application downtime or slow performance can mean diminished employee productivity, dissatisfied customers, and lost revenue.
But keeping pace with change and managing growth can be a real challenge. Increasing numbers of applications, evolving technology, and rapid data growth are pushing older IT
infrastructure to the limit—demanding more storage and bandwidth, greater security and agility, and higher availability than ever before.

Increasingly complex networks, require more than a one-size-fitsall
approach to ensuring adequate performance and data integrity.
In addition to the garden-variety performance issues such as slow
applications, increased bandwidth requirements, and lack of visibility
into cloud resources, there is also the strong likelihood of a malicious
attack.
While many security solutions like firewalls and intrusion detection
systems (IDS) work to prevent security incidents, none are 100 percent
effective. However, there are proactive measures that any IT team can
implement now that can help ensure that a successful breach is found
quickly, effectively remediated, and that evidential data is available in
the event of civil and/or criminal proceedings.

Internet use is trending towards bandwidth-intensive
content and an increasing number of attached “things”.
At the same time, mobile telecom networks and data
networks are converging into a cloud computing
architecture. To support needs today and tomorrow,
computing power and storage is being inserted out on
the network edge in order to lower data transport time
and increase availability. Edge computing brings
bandwidth-intensive content and latency-sensitive
applications closer to the user or data source. This
white paper explains the drivers of edge computing
and explores the various types of edge computing
available.

Is your WLAN under increasing pressure from more users, more types of connected devices, and more bandwidth-intensive applications?
It’s time to consider a better solution. With Ruckus Cloud Wi-Fi you get simple, centralized cloud-based management and the best performing Wi-Fi access points for high-density environments. Your job gets easier and your Wi-Fi gets better. Get visibility and control of your distributed Wi-Fi network with bandwidth to spare.

Innovative data-driven strategies are enabling organizations to connect with customers and increase operational efficiency as never before. These new initiatives are built on a multitude of applications, such as big-data analytics, supply chain, and factory automation. On average, organizations are now 53% digital as they create new ways of operating and growing their businesses, according to the Computerworld 2017 Forecast Study.
As part of this transformation, enterprises rely increasingly on multivendor, multicloud environments that mix on-premise, private, and public cloud services and workloads. This shift is causing enterprises to increase network capacity; 55% of enterprises in the Computerworld study expect to add network bandwidth in the next 12 months.

Applications are the life of any enterprise and key enablers of workforce productivity and business agility. But, the application landscape is changing rapidly - the number and type of applications is increasing, the move to cloud and SaaS for application delivery is growing, bandwidth costs are decreasing and the reliability of the Internet has improved. Inevitably, there are also changes in network and infrastructure topologies.

High-speed Ethernet WANs are the answer to new applications and computing technologies that need increasing bandwidth. But did you know that securing your shiny new Ethernet WAN traffic will cost thousands of pounds/euros more every month if you make the wrong choices?

High-speed Ethernet WANs are the answer to new applications and computing technologies that need increasing bandwidth. But did you know that securing your shiny new Ethernet WAN traffic will cost thousands of pounds/euros more every month if you make the wrong choices?

Today’s increasingly mobile workforce demands ubiquitous,
fast wireless access to meet the changing needs of the
modern organization. The Wi-Fi networks that used to support
this access often grew organically and were not engineered to
support the widespread, high bandwidth needs of users.

Video conferencing is an increasingly important technology to improve employee and partner collaboration, especially for increasingly virtual organizations supporting rising numbers of mobile and home workers. But many companies still struggle to justify their investments in video conferencing, and not to understand potential cost differences among competing solutions - not just hardware and software expenses, but also investments required for bandwidth and operational support. Comparing various video conferencing solutions requires examining deployment models, licensing arrangements, network, hardware, and operational costs for leading video conferencing solution vendors in a variety of scenarios, using real-world data gathered from actual buyers of video conferencing products and services. The result: Significant differences in costs across all areas, especially for varying deployment models.

Internet use is trending towards bandwidth-intensive content and an increasing number of attached “things”. At the same time, mobile telecom networks and data networks are converging into a cloud computing architecture. To support needs today and tomorrow, computing power and storage is being inserted out on the network edge in order to lower data transport time and increase availability. Edge computing brings bandwidth-intensive content and latency-sensitive applications closer to the user or data source. This white paper explains the drivers of edge computing and explores the various types of edge computing available.

Today's datacenter networks must better adapt to and accommodate business-critical application workloads. Datacenters will have to increasingly adapt to virtualized workloads and to the ongoing enterprise transition to private and hybrid clouds. Pressure will mount on datacenters not only to provide increased bandwidth for 3rd Platform applications such as cloud and data analytics but also to deliver the agility and dynamism necessary to accommodate shifting traffic patterns (with more east-west traffic associated with server-to-server flows, as opposed to the traditional north-south traffic associated with client/server computing). Private cloud and legacy applications will also drive
daunting bandwidth and connectivity requirements. This Technology Spotlight examines the increasing bandwidth requirements in enterprise datacenters, driven by both new and old application workloads, cloud and noncloud in nature. It also looks at how Cisco is meeting the bandwidth challenge posed by 3rd

Today's datacenter networks must better adapt to and accommodate business-critical application workloads. Datacenters will have to increasingly adapt to virtualized workloads and to the ongoing enterprise transition to private and hybrid clouds. Pressure will mount on datacenters not only to provide increased bandwidth for 3rd Platform applications such as cloud and data analytics but also to deliver the agility and dynamism necessary to accommodate shifting traffic patterns (with more east-west traffic associated with server-to-server flows, as opposed to the traditional north-south traffic associated with client/server computing). Private cloud and legacy applications will also drive daunting bandwidth and connectivity requirements. This Technology Spotlight examines the increasing bandwidth requirements in enterprise datacenters, driven by both new and old application workloads, cloud and noncloud in nature. It also looks at how Cisco is meeting the bandwidth challenge posed by 3rd

Applications are the life of any enterprise and key enablers of workforce productivity and business agility. But, the application landscape is changing rapidly - the number and type of applications is increasing, the move to cloud and SaaS for application delivery is growing, bandwidth costs are decreasing and the reliability of the Internet has improved. Inevitably, there are also changes in network and infrastructure topologies.
The hybrid enterprise has become a reality. The hybrid enterprise has become a standard.

Internet use is trending towards bandwidth-intensive
content and an increasing number of attached “things”.
At the same time, mobile telecom networks and data
networks are converging into a cloud computing
architecture. To support needs today and tomorrow,
computing power and storage is being inserted out on
the network edge in order to lower data transport time
and increase availability. Edge computing brings
bandwidth-intensive content and latency-sensitive
applications closer to the user or data source. This
white paper explains the drivers of edge computing
and explores the various types of edge computing
available.

Eliminate high costs associated with MPLS and BGP with a new approach. This short video will show how secure and resilient connectivity between global sites is possible while increasing network bandwidth and quality of service.

Applications are the life of any enterprise and key enablers of workforce productivity and business agility. But, the application landscape is changing rapidly - the number and type of applications is increasing, the move to cloud and SaaS for application delivery is growing, bandwidth costs are decreasing and the reliability of the Internet has improved. Inevitably, there are also changes in network and infrastructure topologies.
The hybrid enterprise has become a reality. The hybrid enterprise has become a standard.
Join us March 10th as noted industry analyst Rick Villars of IDC, leads a discussion with Zeeshan Sabir, Qualcomm, and Riverbed’s Hansang Bae about the changing face of IT.

Applications are the life of any enterprise and key enablers of workforce productivity and business agility. But, the application landscape is changing rapidly - the number and type of applications is increasing, the move to cloud and SaaS for application delivery is growing, bandwidth costs are decreasing and the reliability of the Internet has improved. Inevitably, there are also changes in network and infrastructure topologies.

Applications are the life of any enterprise and key enablers of workforce productivity and business agility. But, the application landscape is changing rapidly - the number and type of applications is increasing, the move to cloud and SaaS for application delivery is growing, bandwidth costs are decreasing and the reliability of the Internet has improved. Inevitably, there are also changes in network and infrastructure topologies.
The hybrid enterprise has become a reality. The hybrid enterprise has become a standard.